1. Simple structure, fewer parts. As a result, the failure rate of parts is low, performance is reliable, and maintenance is straightforward.
Inventory of required parts is low.
2. Less space required, which is beneficial for arranging production lines in the customer's factory and allows for larger storage areas. Palletizing robots can be set up in narrow spaces, enabling efficient use.
3. Strong applicability. When there are changes in the size, volume, shape of the customer's products or the tray's dimensions, simply make minor adjustments on the touch screen, without affecting the customer's regular production. In contrast, changing a mechanical stacker is quite cumbersome, and in some cases, it may not be achievable.
4. Low energy consumption. Typically, mechanical stacker machines have a power rating of around 26KW, whereas stacker robots operate at approximately 5KW. This significantly reduces the clients' operational costs.
All controls can be operated on the control cabinet screen, making the operation very simple.
6. Simply locate the starting and placement points; the instructional method is easy to understand.
Working Principle Editor Reporting
The layer of workpieces on the flat plate that meet the stack board requirements is moved forward along with the flat plate until it is perpendicular to the stack board's vertical surface. The top stopper bar descends, while the three other positioning stop bars engage and clamp. At this point, the flat plate resets. The workpieces descend to the stack board level, with a 10mm gap between the stack board surface and the flat plate bottom. The stack board then descends by one workpiece height. This process repeats until the stack board is piled to the set requirements. The pile robot is equipped with a specially customized multi-functional gripper, which can securely hold and transfer packaging boxes using vacuum suction cups, regardless of their size or weight.
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